Trio’s Rho-specific GEF domain is the missing Gαq effector in C. elegans

Abstract

The Gα_q pathway is essential for animal life and is a central pathway for driving locomotion, egg laying, and growth in Caenorhabditis elegans, where it exerts its effects through EGL-8 (phospholipase Cβ [PLCβ]) and at least one other effector. To find the missing effector, we performed forward genetic screens to suppress the slow growth and hyperactive behaviors of mutants with an overactive Gα_q pathway. Four suppressor mutations disrupted the Rho-specific guanine-nucleotide exchange factor (GEF) domain of UNC-73 (Trio). The mutations produce defects in neuronal function, but not neuronal development, that cause sluggish locomotion similar to animals lacking EGL-8 (PLCβ). Strains containing null mutations in both EGL-8 (PLCβ) and UNC-73 (Trio RhoGEF) have strong synthetic phenotypes that phenocopy the arrested growth and near-complete paralysis of Gα_q-null mutants. Using cell-based and biochemical assays, we show that activated C. elegans Gα_q synergizes with Trio RhoGEF to activate RhoA. Activated Gα_q and Trio RhoGEF appear to be part of a signaling complex, because they coimmunoprecipitate when expressed together in cells. Our results show that Trio’s Rho-specific GEF domain is a major Gα_q effector that, together with PLCβ, mediates the Gα_q signaling that drives the locomotion, egg laying, and growth of the animal.